Interdimensional Mechanics

The branch of physics describing how objects move through the spaces between dimensions, navigating the gaps where normal physical laws don't quite apply. This field explains phenomena like teleportation (briefly exiting our dimensional framework and re-entering at a different point), invisibility (shifting into the gap between dimensions where light doesn't interact), and that weird moment when you walk into a room and forget why (your intention momentarily slipped into the interdimensional gap and hasn't returned). Interdimensional mechanics requires a new kind of mathematics, one that can handle undefined spaces and non-existent coordinates, which is challenging for a field that likes things to be, you know, defined.

The branch of physics describing how objects move through all dimensions simultaneously, accounting for the fact that every object exists not just in 3D space but across the entire dimensional spectrum. In multidimensional mechanics, your position isn't a point—it's a vector with components in every dimension, most of which you can't perceive. Your movement through 3D space is just the visible projection of a much more complex multidimensional trajectory. This explains why you sometimes feel like you're going in circles even when you're walking straight—your multidimensional vector is looping through higher dimensions while your 3D projection plods along.

The branch of physics describing motion through hyperdimensional space—realms with so many dimensions that the very concept of "motion" becomes meaningless, since you're already everywhere at once. In hyperdimensional mechanics, objects don't move; they simply are, in all possible configurations simultaneously. Position, velocity, acceleration—these are 3D concepts that don't apply in hyperdimensional contexts. What does apply is a kind of pure mathematical existence, where objects are defined not by coordinates but by relationships, and motion is replaced by "reconfiguration." This is either profound physics or a really fancy way of saying "stuff is complicated."

The branch of six-dimensional physics describing how objects move and change through the combined manifold of space, time, probability, and initial conditions. In 6D mechanics, every object has a trajectory determined not just by its current position and momentum (3D), not just by its evolution through time (4D), not just by its probability branch (5D), but by its complete initial state—the full specification of its beginning. This mechanics explains why systems with identical current states can evolve differently if their initial conditions differed (the paths converged temporarily but will diverge again). It explains why history is encoded in present behavior—the initial conditions are still active, still shaping motion. And it explains why prediction requires knowing not just where something is now, but where it started.